Showing 12 - 25 Results
What do the medical and chemical processing industries have in common? Both benefit from using FFKM seals.
August 14, 2020 • 
3 min read
Perfluoroelastomer, or FFKM as it’s more commonly known, is a remarkable material. A highly fluorinated version of fluoroelastomer, FFKM is famed for its chemical inertness and a thermal stability that enables it to operate at temperature extremes of -45 °C to +330 °C. Unsurprisingly, given these credentials, FFKM is a material in high demand. Read […]
June 30, 2020 • 3 min read
There is a huge variety of different O-ring seal materials in use today. So much so, in fact, that for the purposes of this article, we are going to focus on three of the “best”.
April 6, 2019 • 4 min read
If you are in the market for a durable sealing solution for a demanding application, FFKM rubber seals offer outstanding advantages. Perfluoroelastomer (FFKM) rubber seals offer the dual benefits of excellent chemical resistance and a wide operating temperature of -40°C to +330°C, making them ideally suited to the harshest of applications. In this article, TRP […]
March 13, 2019 • 3 min read
Standard ‘O’ ring materials can struggle to perform optimally in ultra-low temperature applications. Once temperatures are reduced to below the working limits of the material they resist the deformation that usually occurs under pressure and is so vital to maintain seal integrity. This is where specialised ultra-low temperature ‘O’ rings offer the perfect solution.
November 16, 2018 • 2 min read
In this article, TRP Polymer Solutions explores the chemical properties that lead to FFKM’s temperature range capabilities.
July 23, 2018 • 3 min read
Showing 12 - 25 Results
Read our FFKM brochure in further detail to understand how TRP delivers outstanding sealing solutions for the most severe of chemical and high-temperature applications.
Read MoreRead more about how TRP produces high-performance elastomeric seals and custom rubber mouldings, using a wide range of polymers, all of which are carefully selected for their unique characteristics.
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